RU2005101342A - ULTRABAND COMMUNICATION THROUGH WIRED MEDIA - Google Patents

Claims (27)

1. An ultra-wideband communication system for a wired network, comprising: an ultra-wideband transmitter configured to transmit an ultra-wideband signal through a wired network; and an ultra-wideband receiver configured to receive an ultra-wideband signal from a wired network. 2. The ultra-wideband communication system according to claim 1, wherein the ultra-wideband signal comprises a pulsed radio signal. 3. The ultra-wideband communication system according to claim 1, wherein the ultra-wideband signal comprises an electromagnetic energy pulse having a duration that can range from about 0.1 ns to about 100 ns. 4. The ultra-wideband communication system according to claim 1, in which the ultra-wideband signal contains a pulse of electromagnetic energy having a duration that can range from about 0.1 ns to about 100 ns and a power that can range from about +30 dB power up to about -90 dB in power, when measured at a single frequency. 5. The ultra-wideband communication system of claim 1, wherein the ultra-wideband transmitter comprises an ultra-wideband pulse modulator configured to transmit a plurality of ultra-wideband signals. 6. The ultra-wideband communication system of claim 1, wherein the ultra-wideband receiver comprises an ultra-wideband pulse demodulator configured to receive a plurality of ultra-wideband signals. 7. The ultra-wideband communication system according to claim 1, in which the wired connection used in the wired network is selected from the group consisting of fiber optic tape, fiber optic cable, single-mode fiber optic cable, multi-mode fiber optic cable, twisted pair, unshielded twisted pair, fire-resistant wire, PVC wire, and coaxial cable and conductive material. 8. The ultra-wideband communication system according to claim 1, in which the wired network is selected from the group consisting of a power line, an optical network, a cable television network, a television network with access through collective antennas, a television network for multiple access, a hybrid television network using fiber optical / coaxial cables, public switched telephone network, wide area network, local area network, urban network, TCP / IP network, dial-up network, dial-up network, dedicated network access, networks with dial-up access, public network and private network. 9. The ultra-wideband communication system according to claim 1, wherein the ultra-wideband signal is used to transmit data selected from the group consisting of telephony data, high speed data, digital video data, digital television data, Internet data, and audio data. 10. The ultra-wideband communication system of claim 1, wherein the ultra-wideband signals comprise a plurality of pulsed quadrature amplitude modulated signals. 11. The ultra-wideband communication system of claim 1, wherein the ultra-wideband signals comprise a plurality of pulsed positional modulation signals. 12. The ultra-wideband communication system of claim 1, wherein the ultra-wideband signals comprise a plurality of pulse amplitude modulated signals. 13. The ultra-wideband communication system of claim 1, wherein the ultra-wideband signals are modulated at a fixed pulse rate. 14. The ultra-wideband communication system of claim 1, wherein the ultra-wideband signals are modulated at a variable pulse rate. 15. The ultra-wideband communication system according to claim 1, in which the ultra-wideband signals are modulated with a pseudo-random pulse repetition rate. 16. An ultra-wideband system configured to transmit and receive data through a substantially continuous wired medium, said ultra-wideband system includes an ultra-wideband transmitter located at a first location on the network, the ultra-wideband transmitter configured to transmit an ultra-wideband signal through a wired medium; and an ultra-wideband receiver located at a second location on the network, the ultra-wideband receiver configured to receive an ultra-wideband signal from a wired medium. 17. The ultra-wideband system of claim 16, wherein the substantially continuous wired medium is selected from a group consisting of a power line, an optical network, a cable television network, a television network with access through collective antennas, a television multiple access network, and a hybrid television network using fiber optic / coaxial cables. 18. The ultra-wideband system of claim 16, wherein the substantially continuous conductive medium is selected from the group consisting of fiber optic tape, fiber optic cable, single mode fiber optic cable, multi mode fiber optic cable, twisted pair, unshielded twisted pair, flame retardant wire, PVC wire, and coaxial cable and conductive material. 19. The ultra-wideband system of claim 16, wherein the ultra-wideband signal comprises a pulsed radio signal. 20. The ultra-wideband system of claim 16, wherein the ultra-wideband signal comprises a pulse of electromagnetic energy having a duration that may range from about 0.1 ns to about 100 ns. 21. The ultra-wideband system of claim 16, wherein the ultra-wideband signal comprises a pulse of electromagnetic energy having a duration that can range from about 0.1 ns to about 100 ns and a power that can range from about +30 dB in power up to approximately -90 dB in power, measured at a single frequency. 22. The ultra-wideband system of claim 16, wherein the ultra-wideband transmitter comprises an ultra-wideband pulse modulator configured to transmit a plurality of ultra-wideband signals. 23. The ultra-wideband system of claim 16, wherein the ultra-wideband receiver comprises an ultra-wideband pulse demodulator configured to receive a plurality of ultra-wideband signals. 24. An ultra-wideband communication system for a substantially continuous wired medium, comprising an ultra-wideband transmitter configured to transmit an ultra-wideband signal through a wired network and an ultra-wideband receiver configured to receive an ultra-wideband signal from a wired network, wherein the ultra-wideband transmitter and the ultra-wideband receiver communicate via a substantially continuous Wednesday 25. The ultra-wideband communication system of claim 24, wherein the substantially continuous wired medium is selected from the group consisting of fiber optic tape, fiber optic cable, single mode fiber optic cable, multi mode fiber optic cable, twisted pair, unshielded twisted pair, flame retardant wire, PVC wire, and coaxial cable and electrically conductive material. 26. The ultra-wideband communication system according to claim 24, wherein the substantially continuous wired medium is selected from a group consisting of a power line, an optical network, a cable television network, a television network with access through collective antennas, a television multiple access network, and a hybrid television network with using fiber-optic / coaxial cables, a hybrid television network using fiber-optic / coaxial cables, a public switched telephone network, global tee, local area network, urban network, TCP / IP network, dial-up network, dial-up network, dedicated network, dial-up network, public network and private network. 27. The ultra-wideband communication system of claim 24, wherein the ultra-wideband signal is used to transmit data selected from the group consisting of telephony data, high speed data, digital video data, digital television data, Internet data, and audio data.